Methods and systems are provided to insect harvesting. The system may include a tank for holding or growing live insects or both. The tank has an opening on a side portion of the tank, and the opening is positioned higher than a bottom portion of the tank. A negative stimulus device for repelling live insects toward a first direction or point towards the opening on the side portion of the tank is provided. A positive stimulus device is provided, situated at the opening of the tank. A product box for receiving live insects has an opening for receiving the live insects. A slide is coupled with the opening of the product box. In an operative position, the tank is positioned such that the live insects leaving the opening of the tank move down the slide to the opening of the product box.

An apparatus and method of Black Soldier Fly breeding are provided. The method includes emitting a lure light to lure Black Soldier Flies into an interior space of a fly enclosure, emitting a mating light to induce Black Soldier Flies in the interior space to mate, and illuminating the interior space to a first illuminance above an ovipositing illuminance threshold and below a mating inducing illuminance threshold. The lure light has a first wavelength range that attracts recently hatched Black Soldier Flies into the fly enclosure through one or more lure ports formed in the fly enclosure. The mating light has a second wavelength range that induces Black Soldier Flies to mate. The method may also include illuminating the interior space to a second illuminance below the ovipositing illuminance threshold so that Black Soldier Flies in the interior space are encouraged to rest.

A device comprises a dispenser assembly comprising a frame having a first surface and a second surface. The frame defines a pathway, an inlet opening in the first surface of the frame and a drain opening in the second surface of the frame. The inlet opening and the drain opening may provide access to the pathway. The device also includes a moveable member having at least one bore oriented perpendicular to the pathway. The moveable member may be translatable within the pathway between a first position and a second position.

The present invention relates to a degenerative disease model Drosophila. More particularly, a technique is disclosed for alleviating the phenotypes of a degenerative disorder symptom of Drosophila. Using this technique, illumination with low dose radiation on a degenerative disease model Drosophila alleviates symptoms of the degenerative disease.

Egg laying device for flies, the device comprising:—a fly cage (20) and—a laying nest (50) which is intended to receive the eggs laid by flies which are enclosed in the cage (20), in which device the cage (20) is passed through by at least one egg laying aperture (54) which opens towards the exterior of the cage via an external opening (56), and wherein the laying nest (50) is arranged outside the cage and defines an egg laying zone (52) which extends opposite the external opening (56).

Compositions and methods for detecting nucleic acid-protein interactions, or more generally interactions between a nucleic acid and another molecule. A Cas protein (e.g., a catalytically dead Cas13) is fused to a proximity tagging enzyme (e.g., a Pup ligase) and thus brings the proximity tagging enzyme to the proximity of a protein that binds to a nucleic acid, when the Cas protein recognizes the nucleic acid, e.g., through a guide RNA. The proximity tagging enzyme then tags the protein enabling it to be identified as a protein that interacts with the nucleic acid.

The present invention relates to a method for generating sterile Zeugodacus scutellata males by emitting an electron beam at a dose of 150 Gy (inclusive) to 250 Gy (exclusive) to pupae of Zeugodacus scutellata and a method for controlling Zeugodacus scutellata by releasing the generated sterile males and normal males at a ratio of 9:1. In the present invention, electron beams are used instead of radioactive beams and suitable doses of electron beams are determined to generate sterile males of domestic native Zeugodacus scutellata. The generated sterile Zeugodacus scutellata males and normal males are released at a ratio of 9:1 to effectively control Zeugodacus scutellata through a sterile insect release technique (SIT).

A method and system for the treatment of honey bees (Apis mellifera), bats, and butterflies protects them from various life threatening conditions, including Colony Collapse Disorder and in particular, provides honey bees with the ability to assimilate and degrade pesticides such as neonicotinoids and fipronil.

The present invention relates to a method for screening an anticancer agent by causing drosophila having the characteristics of a) expression of mutant Ras85D, b) deletion or suppressed expression of a p53 gene, c) overexpression of a cyclin E gene, and d) deletion or suppressed expression of a Med gene to ingest a test substance and comparing the survival rate thereof with the survival rate of drosophila that did not ingest the test substance. The present invention also relates to a combination drug of at least two kinase inhibitors for treatment of pancreatic cancer and to kinase inhibitors for use in said combination drug.

Devices, systems, and methods for transporting or transferring insect pupae in an aqueous solution are described. The system includes a tank containing a solution with insect pupae, a transfer chamber having an outlet at a bottom portion of the chamber, a solution inlet, an evacuation channel, and a depth measurement system. A tube fluidly connects to tank and the transfer chamber. An evacuation device connected to the evacuation channel removes air from the transfer chamber and generates a vacuum therein to draw the solution through the tube into the transfer chamber.